FR2918444A1 - CHAMBER BOTTOM DEFLECTOR, COMBUSTION CHAMBER COMPRISING SAME, AND GAS TURBINE ENGINE WHERE IT IS EQUIPPED - Google Patents

Abstract

The present invention relates to a combustion chamber bottom deflector (10) of a gas turbine engine, comprising a flat wall portion (10a) with an opening for the passage of an injector of the combustion chamber, two longitudinal edges (10c, 10d) for the assembly with two adjacent deflectors and two transverse edges (10e, 10f) characterized in that at least one of the edges comprises a joint cover (10d1) providing a housing (10d10) ) along said edge for an edge (10'c) of an adjacent baffle (10 ') so as to seal the junction between the two edges. The invention also relates to a combustion chamber incorporating said deflectors

Description

The present invention relates to the technical field of chambers of

  combustion for gas turbine engine. It is particularly aimed at the bedroom floor. Finally, it relates to a gas turbine engine such as a turbojet engine equipped with such a combustion chamber.

  In all that follows, the axial, radial, transverse terms correspond respectively to an axial direction, to a radial direction, and to a transverse plane of the engine, and the terms upstream and downstream respectively correspond to the direction of the flow of gases in engine.

  A conventional divergent combustion chamber is illustrated in FIG. 1, which is an axial section showing one half of the combustion chamber, the other half of which is deduced by symmetry with respect to the axis of the engine (not shown ). The combustion chamber 110 is housed in a diffusion chamber 130 which is an annular space defined between an outer casing 132 and an inner casing 134, into which is introduced an oxidant, ambient air, compressed coming upstream of a compressor (no represented) via an annular diffusion duct 136. This diverging combustion chamber 110 has two concentric walls: one external 112 and the other internal 114, which are coaxial and substantially conical. The walls widen from upstream to downstream. The outer 112 and inner 114 walls of the combustion chamber 110 are connected together, upstream of the combustion chamber by a chamber bottom 116.

  The chamber bottom 116 is a frustoconical annular piece, which extends between two substantially transverse planes flaring from downstream to upstream. The chamber bottom 116 is connected to each of the two outer 112 and inner 114 walls of the combustion chamber 110. The chamber bottom 116 has a small taper. It is equipped with injection systems 118 through which pass injectors 120 which introduce fuel to the upstream end of the combustion chamber 110 where the combustion reactions take place. These combustion reactions have the effect of radiating heat downstream upstream towards the chamber bottom 116. Thus in operation the chamber bottom is subjected to high temperatures. In order to protect it, sectorized heat shields, also called deflectors 122 are interposed between the fireplace and the walls of the chamber bottom. These deflectors 122, one of which is shown in FIG. 3, are substantially plane plates brazed to the chamber bottom 116 with a central opening 122a for the passage of the injection system. They comprise two lateral walls 122b 122c along the radial edges, turned towards the wall of the chamber bottom and two tongues 122e 122f for guiding air along the transverse edges facing the hearth and leaving a space with the walls 114 and 112 , internally respectively external, of the chamber. The baffles are cooled by the impacts of cooling air jets entering the combustion chamber 110 through cooling orifices 124 drilled in the chamber bottom 116. The air forming these jets, flowing from the upstream downstream, is guided by chamber shrouds 126, passes through the chamber bottom 116 through the cooling orifices, and impinges on the upstream face of the deflectors 122. The air is then guided radially inwards and outside the focus to initiate the cooling film of the walls 114 and 112 respectively.

  This guidance along the baffles is provided by the side walls oriented radially. These walls also have a sealing function. By being in contact or by ensuring a minimum clearance with the chamber bottom, They prevent air from coming in between two adjacent baffles, enter the home and disrupt combustion. These disturbances affect pollution and should be avoided. Indeed, the pollutant discharge performance, CO and CHx are likely to be degraded by the parasitic introduction of this cold air particularly at engine idling speed where the game is more important.

  In the context of other engine architectures where the flow of gas is generally convergent between the compressor outlet and the inlet of the turbine, there are so-called convergent combustion chambers, the outer and inner walls of the combustion chamber are inclined by widening from downstream to upstream, and not from upstream to downstream as with the first combustion chambers mentioned above, said divergent. These convergent combustion chambers may have a larger cone angle than the cone angle of the diverging combustion chambers. Such a large inclination of the combustion chamber affects the taper of the chamber bottom and the position of the baffles relative to the chamber bottom. Such a combustion chamber is partially illustrated in Figure 2, in axial section. In this figure appear an axial direction 100 parallel to the axis of the turbojet, the main direction 200 of the combustion chamber 210, and the angle between these two axes 100, 200. Due to the significant inclination of the chamber 210, the chamber bottom 216 has a larger taper angle than for a convergent combustion chamber bottom. When not only the inclination of the chamber bottom 216 is important, but also the injectors 220 are present in reduced number and / or the combustion chamber 210 has a small diameter, it affects the distance between the chamber bottom and flat deflectors. Thus the geometry of the chamber bottom can also make difficult the necessary adjustments and tolerances between the bottom wall of the chamber and the baffles. The optimal operation of the room is no longer ensured. The variation of the clearance between the baffles on the one hand and the baffles and the bottom chamber on the other hand is large enough so that the solution using side walls along the radial edges of the deflectors is no longer satisfactory. The present invention aims to remedy this problem. According to the invention there is provided a combustion chamber bottom deflector of a gas turbine engine, comprising a wall portion with an opening for the passage of an injection system of the combustion chamber, two edges longitudinal and two transverse edges, characterized in that at least one of the longitudinal edges comprises a joint cover forming a housing along said edge for an attached tongue or the edge of an adjacent baffle so as to seal the joint between said edge and the edge of an adjacent baffle. The solution of the invention is thus to seal the space between the baffles so as not to be dependent on the geometry of the combustion chamber and the chamber bottom in particular and to be able to absorb the dimensional variations related to the operation of the baffle. the room between idle speed and full throttle.

  Different solutions are proposed: - The housing is formed by a recess of the wall. - The housing is formed by a gorge. - The transverse edges comprising a curved wall portion 5, the housings are also formed along the longitudinal edges of said curved portion. The deflector comprises a jointed cover along a longitudinal edge and an edge without an attached cover along the other longitudinal edge, the two edges being complementary so as to adapt to an edge of another same disposed deflector. on board. - The deflector comprises a seal covers along the two longitudinal edges. The deflector comprises two complementary longitudinal edges of the joint covers. The present invention also relates to a combustion chamber of an annular gas turbine engine comprising an outer wall, an inner wall, a wall connecting the two walls and constituting a chamber bottom, and a plurality of deflectors according to the invention. invention with a wall portion parallel to the chamber bottom, reported in the bottom. According to the embodiments: - All the deflectors are identical or - the baffles with joint covers alternate with the baffles without joint covers. - The chamber bottom comprises radial grooves 25 leaving air gaps between the chamber bottom and the covers. - The combustion chamber is of convergent type.

  Other features and advantages will emerge from the following description of embodiments of the invention with reference to the accompanying drawings in which: - Figure 1 shows in axial section a divergent type combustion chamber of known per se; - Figure 2 shows in axial section a combustion chamber convergent type known per se; - Figure 3 shows a deflector of the prior art used for the thermal protection of the wall of the combustion chamber bottom; FIG. 4 shows, seen from inside the combustion chamber, two adjacent thermal protection baffles of the chamber of the invention; - Figure 5 shows the other side of the deflectors of Figure 4; FIG. 6 shows the detail of the joint cover of the baffles of FIGS. 4 and 5; - Figure 7 shows an alternative embodiment of the seal between two adjacent deflectors; - Figure 8 shows the other side of the baffles of Figure 7; FIG. 9 shows the detail of the joint cover of the baffles of FIGS. 7 and 8; - Figure 10 is a view showing a radial groove in the wall of the chamber bottom to allow the realization of an air gap between the wall of the chamber bottom and the joint cover of the baffles - Figure 11 shows, seen from above. radial direction, the gap between the wall of the chamber bottom and the cover joined to the connection between two adjacent deflectors. - Figure 12 shows another embodiment of the joint cover seen from inside the combustion chamber; FIG. 13 shows the edge of a deflector of FIG. 12 with a tongue. FIG. 14 shows the detail of the joint cover of FIGS. 12 and 13. Referring now to FIGS. 4 to 6 showing a first embodiment of FIG. sealing between two deflectors 10 and 10 'of refractory material arranged side by side on the chamber bottom. The deflector 10 comprises a flat portion 10a with a central opening 10b corresponding to the housing of a not shown injection system. In Figure 5, the opening is bordered by a flange 10b with shoulder 1 for fixing in the chamber bottom. The deflector comprises two longitudinal edges which are oriented in a radial direction relative to the axis of the engine, when in position. The longitudinal edge 10c and the edge 10d are rectilinear. The deflector 10 also comprises two transverse edges 10e and 10f both rounded to follow the curvature of the combustion chamber and curved towards the interior of the combustion chamber for guiding the air. The edge 10c, on the left in FIG. 4, is rectilinear and follows the radial profile of the deflector. The edge 10d on the other side comprises a rear recess with respect to the visible face in Figure 4, formed by a tongue 10d 1 which extends the rear face of the wall of the baffle. This recess forms a longitudinal housing 1OdlO for the edge 10'c adjacent deflector 10 '. This deflector 10 'is identical to the deflector 10. It comprises a flat portion 10'a, two longitudinal edges 10'c and 10'd and two transverse edges curved and curved 10'e and 10'f. The edge 10'd comprises a longitudinal tongue 10'dl providing a housing 10'dlO.

  In the example of Figures 4 to 6 the baffles are all identical and are mounted on the periphery of the chamber bottom being fixed by the flanges of the openings for the injection systems. There is a deflector injection system. The joint cover formed by the tongue 10d1 of each of the baffles, covers the edge 10'c adjacent deflector 10 'over a width sufficient to accommodate variations in expansion of the combustion chamber. Each housing 10d10, 10'dlO is arranged to retain the edge 10c, 10'c of the adjacent deflector so that leaks between two adjacent baffles are reduced or completely eliminated regardless of the engine speed. In the embodiment of FIGS. 4 to 6, the baffles are identical, but the solution also includes the case where a first baffle comprises a joint cover along the two longitudinal edges cooperating with the single edges of a second deflector without a joint cover. The effectiveness is the same. However, the assembly is different and requires the manufacture of two parts references. Figures 7, 8 and 9 show a first variant with a groove seal covers that improves the sealing compared to the previous solution.

  The deflectors 20, 20 'are seen with a planar wall 20a, 20'a, a central opening 20b, 20'b two longitudinal edges 20c, 20'c and 20d, 20'd and two rounded and curved transverse edges 20e, 20'. e and 20f, 20'f. The longitudinal edge 20d comprises a tongue 20d1 parallel to the wall of the baffle and providing a housing 20d 10g in the form of a groove. This groove is arranged to cooperate with the edge 20'c of the adjacent deflector. Here the edge 20'c forms a rear recess to engage in the groove 20d1 0g. The clearance is sufficient to allow expansion of the combustion chamber during different engine speeds while maintaining a sealing contact between the edge 20'c and the sides of the groove 20dlOg. As in the previous solution the baffles may all be identical or alternate: one with covers joined on both edges and the other with simple edges cooperating with the grooves of the edges with joint covers. Figures 10 and 11 show an improvement between the baffles and the chamber bottom. The chamber floor 2 comprises a radial groove 2r in the area where the joint cover of the junction of the baffles is placed. This groove 2 'allows to provide a sufficient gap, when the covers joined are of a greater thickness than the clearance between the flat portion 20a of the baffle and the wall of the chamber bottom. Another variant is shown in FIGS. 12, 13 and 14.

  We see the baffles 30, 30 'with a flat wall 30a, 30'a, a central opening 30b, 30'b, two longitudinal edges 30c, 30'c and 30d, 30'd and two transverse edges curved and curved 30e, 30e and 30f, 30'f. The two longitudinal edges 30c, 30d; 30'c, 30'd each comprise a tab 30c1, 30d1; 30'cl, 30'dl parallel to the wall of the baffle and providing a housing 30clOg and 30dlOg, 30'c10g, 304d10g shaped throat. These grooves are arranged to cooperate with a metal insert tongue 31. Thus the tongue is housed in the adjacent grooves 30dl0g and 30'c10g. The clearance is sufficient to allow expansion of the combustion chamber during different engine speeds while maintaining a sealing contact between the edge 20'c and the sides of the groove 20d1 0g.

Claims (14)

  A combustion chamber bottom deflector (10, 20, 30) of a gas turbine engine, comprising a wall portion (10a, 20a, 30) with an opening for the passage of an injector of the combustion chamber, two longitudinal edges (10c, 10d, 20c, 20d, 30c, 30d) and two transverse edges (10e, 10f, 20e, 20f, 30e, 30f) characterized in that at least one of the edges longitudinaux comprises a joint cover (10d1; 20d1; 30d1,30'cl) providing a housing (10d lO; 20d l Og; 30d l Og, 30'c 10g) along said edge for a tab (31) reported or the edge (10'c; 20'c) of an adjacent deflector (10 '; 20'; 30 ') so as to seal the junction between the two edges.   2. Deflector according to claim 1, the housing (10dl0) is formed by a recess of the wall.   3. Deflector according to claim 1, the housing is formed of a groove (20dlOg; 30dl0g, 30'cl0g).   4. Deflector according to one of the preceding claims, the transverse edges (10e, 10f; 20e, 20f; 30e, 30f) comprise a curved wall portion, the housings being also formed along the longitudinal edges of said curved portion.   5. Deflector comprising a joint cover (10d1; 20d1,) according to one of the preceding claims along a longitudinal edge and an edge (10c; 20c) without joint covers along the other longitudinal edge, the two edges being complementary to come to adapt to an edge of another same deflector disposed edge to edge.   6. Deflector comprising a cover joined along the two longitudinal edges according to one of claims 1 to 4.   7. Deflector comprising two complementary longitudinal edges of the covers of the deflector of claim 6.   8. Combustion chamber of a gas turbine engine, annular comprising an outer wall, an inner wall, a wall connecting the two walls and constituting a chamber bottom, baffles (10, 20; 30) according to at least l one of the preceding claims and comprising a wall portion parallel to the chamber bottom, being reported in the bottom.   9. Combustion chamber according to the preceding claim, with baffles according to claim 5, all being identical.   10. Combustion chamber according to claim 8 with baffles according to claim 3, all the deflectors being identical a metal tongue being housed in the grooves of the joint covers.   11.Combustion chamber according to claim 8 with baffles according to claims 6 and 7 taken together, the baffles according to claim 6 alternate with the baffles of claim 7.   12.Chambre combustion according to one of claims 8 to 11, the bottom chamber comprises a groove providing an air gap between the bottom chamber and the covers.   Convergent type room according to one of claims 8 to 12.   14.Gas turbine engine comprising a combustion chamber (10) according to any one of claims 8 to 14.